Two-piece sound processor system for use in an auditory prosthesis system

What is claimed is: 1. A system comprising: an off-the-ear headpiece module configured to be affixed to a head of a patient and comprising a primary sound processor disposed therein that is configured to generate stimulation parameters used to direct an auditory prosthesis implanted within the patient to apply electrical stimulation representative of one or more audio signals to the patient, and a battery that provides operating power to the primary sound processor; and a sound processor module separate from the headpiece module and that does not include a separate battery and that is configured to be selectively and communicatively coupled to the headpiece module, the sound processor module comprising a secondary sound processor configured to detect a communicative coupling of the sound processor module to the headpiece module, and contribute to the generation of one or more stimulation parameters included in the stimulation parameters while the sound processor module is communicatively coupled to the headpiece module, wherein the primary sound processor is configured to detect that the sound processor module is not communicatively coupled to the headpiece module, generate the stimulation parameters independent of the secondary sound processor while the sound processor module is not communicatively coupled to the headpiece module, and provide, while the sound processor module is communicatively coupled to the headpiece module, operating power to the secondary sound processor from the battery included in the headpiece module. 2. The system of claim 1 , wherein the primary sound processor is further configured to generate one or more of the stimulation parameters independent of the secondary sound processor while the sound processor module is communicatively coupled to the headpiece module. 3. The system of claim 1 , wherein the sound processor module comprises one or more user input mechanisms, and wherein the secondary sound processor is configured to contribute to the generation of the one or more stimulation parameters by detecting interaction by a user with the one or more user input mechanisms; and adjusting the one or more stimulation parameters in response to the interaction by the user with the one or more user input mechanisms. 4. The system of claim 3 , wherein the one or more user input mechanisms comprise at least one of a program selection mechanism, a volume control mechanism, and a sensitivity control mechanism. 5. The system of claim 1 , wherein the one or more stimulation parameters are associated with an audio signal included in the one or more audio signals, and wherein the secondary sound processor is configured to contribute to the generation of the one or more stimulation parameters by: detecting the audio signal; applying one or more pre-processing functions to the audio signal; and transmitting data representative of the pre-processed audio signal to the primary sound processor. 6. The system of claim 5 , wherein the sound processor module is communicatively coupled to one or more microphones, and wherein the secondary sound processor is configured to detect the audio signal using the one or more microphones. 7. The system of claim 6 , wherein the one or more pre-processing functions comprises a beam forming function associated with the detection of the audio signals using the one or more microphones. 8. The system of claim 1 , wherein the sound processor module further comprises one or more interface components configured to facilitate communication by the secondary sound processor with one or more auxiliary audio input devices, and wherein the secondary sound processor is configured to contribute to the generation of the one or more stimulation parameters by: receiving, by way of the one or more interface components, an audio signal included in the one or more audio signals from one of the one or more auxiliary audio input devices; and transmitting data representative of the received audio signal to the primary sound processor. 9. The system of claim 8 , wherein the primary sound processor is configured to generate one or more stimulation parameters associated with the received audio signal in accordance with the transmitted data. 10. The system of claim 8 , wherein the one or more auxiliary audio input devices comprise at least one of an FM transmitter, a Bluetooth device, and an audio player. 11. The system of claim 1 , wherein the sound processor module further comprises one or more interface components configured to facilitate communication by the secondary sound processor with at least one of a hearing instrument body area network device, an audio gateway device, a remote control device, and another third sound processor. 12. The system of claim 1 , wherein: the sound processor module further comprises one or more interface components configured to facilitate communication by the secondary sound processor with a fitting device; and the secondary sound processor is further configured to relay fitting data received from the fitting device to the primary sound processor. 13. The system of claim 1 , wherein the sound processor module is communicatively coupled to a loudspeaker; and the secondary sound processor is further configured to direct the loudspeaker to apply acoustic stimulation representative of at least one of the one or more audio signals to the patient. 14. The system of claim 1 , wherein the headpiece module further comprises communication circuitry configured to transmit the stimulation parameters to the auditory prosthesis. 15. The system of claim 1 , wherein the sound processor module is configured to be selectively and communicatively coupled to the headpiece module by way of at least one of a wired communication link and a wireless communication link. 16. The system of claim 1 , wherein the sound processor module comprises at least one of a behind-the-ear sound processor module and an off-the-ear sound processor module. 17. An off-the-ear headpiece module configured to be affixed to a head of a patient and comprising: a primary sound processor that is disposed in the headpiece module and is configured to generate stimulation parameters used to direct an auditory prosthesis implanted within the patient to apply electrical stimulation representative of one or more audio signals to the patient; communication circuitry communicatively coupled to the primary sound processor configured to transmit the stimulation parameters to the auditory prosthesis; and a battery that provides operating power to the primary sound processor; wherein the primary sound processor is further configured to detect a communicative coupling of a sound processor module to the headpiece module, the sound processor module does not include a separate battery, is separate from the headpiece module, and comprises a secondary sound processor, allow the secondary sound processor to contribute to the generation of one or more stimulation parameters included in the stimulation parameters while the sound processor module is communicatively coupled to the headpiece module, detect that the sound processor module is not communicatively coupled to the headpiece module, generate the stimulation parameters independent of the secondary sound processor while the sound processor module is not communicatively coupled to the headpiece module, and provide, while the sound processor module is communicatively coupled to the headpiece module, operating power to the secondary sound processor from the battery included in the headpiece module.